Complex traits are those that are influenced by more than one factor. The factors can be genetic or environmental.
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The expression of a trait depends on genetic factors, environmental factors, and how these factors interact with each other. Genetic factors include the individual's DNA sequence, while environmental factors can include diet, lifestyle, and exposure to external stimuli. The interplay between genetics and the environment can influence how a trait is expressed in an individual.
a phenotype with the greatest frequency in a trait is enviromental conditions. (G00D !-U<K)
Factors that arise from a location.
Environmental factors can influence the expression of a specific trait by affecting how genes are turned on or off. For example, temperature can impact the color of a Himalayan rabbit's fur. In colder areas, the rabbit's fur is darker, while in warmer areas, it is lighter. This shows how the environment can directly affect the expression of a trait.
the offspring have two factors for each trait
The broad sense heritability equation is a statistical measure that estimates the proportion of variation in a trait that is due to genetic factors within a population. It helps researchers understand the extent to which genetics influence a trait compared to environmental factors. By quantifying the genetic contribution to a trait, the broad sense heritability equation provides insights into the genetic basis of that trait.
The word you're looking for is "biotic." This refers to living organisms or biological factors that influence an ecosystem.
The main factors that influence the type of biome that forms in a particular place on land include climate (temperature and precipitation), soil type, topography, and human activities. These factors determine the type of vegetation that can grow in an area, which in turn defines the biome that develops.
The narrow sense heritability equation is a statistical formula used to estimate the proportion of variation in a trait that is due to genetic factors. It is calculated by dividing the additive genetic variance by the total phenotypic variance. This equation helps quantify the genetic contribution to a specific trait in a population by providing a numerical value that represents the extent to which genetic factors influence the trait compared to environmental factors.
A trait influenced by multiple genes is called polygenic. These traits often exhibit a continuous range of variation due to the combined effects of multiple genetic factors. Examples include height, skin color, and intelligence.